Motor vehicle power transmission



Dec. 23, 1941. -r. IAVELLI MOTOR VEHICLE POWER TRANSMISSION Filed Aug. 28, 1940 3 Sheets-Sheet 1 INVENTOR 7222 Jan e275.

' ATTORNEY Dec. 23, 1941. Y T. IAVELLI 2,267,464

MOTOR VEHICLE POWER TRANSMISSION Filed Aug. 28, 1940 :5 Sheets-Sheet 2 I 4 x 11 I 1/111 FM I kl 4 IS INVENTOR 72 /70 ldl/eZ/Z ATTORNEY 3 Shets-She'et 5 INVENTOR 72170 ld/EZZZ BY Filed Aug. 28,

T IAVELLI MOTOR VEHICLE POWER TRANSMISSION Dec. 23, 1941;

ATTORN EY Patented Dec. 1941- aeoam T OFFICE Moron varncm rowan ranssm ssron Tenn lavelli, Detroit, Mich assignor to Chrysler, Corporation, Highland Park, Mich, a corporation of Delaware Application August 28, 1940, Serial No. 854,537

19 Claims. This invention relates to motor vehicles and refers more particularly to power transmission and control mechanism therefor.

In certain types or automatic and semi-automatic transmissions such as shown and described in the copending application of Carl A. Neracher 'et 9.1., Serial No. 335,310, filed May 15, 1940, by

way 'of example, it is possible under rather unusual conditions to so manipulate the vehicle that the transmission becomes locked up in a shiit position; also to render the ignition system inoperative at an undesired time. While the aioresaid unusual conditions would not ordinarily occur, it happens that once ina while a driver of a vehicle equipped with this type of transmission system does experience these dimculties and while said application discloses means to release a locked-up transmission and to restore the igni- 7 for overcoming the aforesaid difliculties, my -invention operating automatically without attention on the'part oi the driver. 4

Another object of my invention is to provide means insuring against undesired grounding of r the engine" ignition in connection with transmission systems employing ignition grounding means for momentary reliei of torque between positively engaging drive control elements whereby such elements may be readily relativelyseparatcd to release a drive; in the transmission. Such systems are especially desirable where change in speed ratio drive is to be made while the engine is delivering power by releasing the control means ior modifying the action of transmission control systems under conditions where the driver brings the car to a stop with the engine ignition system turned oi! prematurely. Under such conditions, especially for transmission systerns embodying governor control of electrical solenoids or other devices, the drive control elements do not properly respond to the main transmission control and either the speed ratio change does not take place as desired or the transmission becomes locked-up or the ignition groundedor several or all of these undesired conditions are brought into action at the same time. My invention insures against-the occurrence of these undesired conditions.

Further objects and advantages of my invention will be more apparent from the following illustrative embodiment thereof, reference being had to the accompanying drawings in which:

Fig.- i is a side elevational view showing a motor vehicle engine and power transmission equipped with my invention.

Fig. 2- is a longitudinal sectional elevational view through the main clutching mechanism".

Fig. 3 is a similar view through the change speed transmission.

Fig. 4 is a detail enlarged view oi the blocker clutch as seen in Fig. 3.

Fig. 5- ls a sectional plan view illustrated as a development according to line t-t of Fig. 4, the automatic clutching sleeve being released.

Fig. 6 is a. similar view showing the automatic clutching sleeve in its intermediate shift posipositive drive control elements which may be the elements of a positive clutch.

A further object of my invention isto provide means for preventing a transmission from getting into an undesired locked-up or no-back condition in which the driver cannot manipulate the transmission. Such condition frequently arises in connection with transmissions employins an overrunning clutch in the line oi drive and especially when the car tends to roll backwards down hill and the shift lever is set for forward drive.

tion during the drive blocking condition.

Fig. 7 is a similar view showing the automatic clutching sleeve in its coasting relationship from the Fig. 6 showing, the clutching sleeve being unblocked during coast for its clutching movement. ,7

Fig. 8 is a similar view showing the automatic clutching sleeve in full clutching engagement.

Fig. 9 is a view similar to Fig. 5 but showing the automatic clutching sleeve in its other intermediate shift position during the coast blocking condition.

Fig. 10 is adiagrammatlc view of the control mechanism for the automatic clutching sleeve,

Another object of myinvention is to provide the latter being shown in its released position.

Fig. 11 is a similar view of a portion 0! the Fig. 10 control mechanism in another operating position. i While my control may be employed in conjunction with various types and arrangements of motor vehicle transmissions, in order to 11- lustrate one driving system I have shown my invention in connection with certain salient parts of the aforesaid Neracher et a1. application.

In the drawings A represents the internal combustion engine which drives through fluid coupling B and conventional type of friction main clutch C to the speed ratio transmission D whence the drive passes from output shaft 28 to drive the rear vehicle wheels in the usual manner.

The engine crankshaft 2| carries the vaned fluid coupling impeller 22 which in the well-known manner drives the vaned runner 23 whence the drive passes through hub 24 to clutch driving member 25. Th s member then transmits the drive, when clutch C is engaged as in Fig. 2, through driven member 28 to the transmission driving shaft 21 carrying the main drive pinion 28. that when the driver depresses this pedal, collar 38 is thrust forward to cause levers 3| to release the clutch driving pressure plate 32 against springs 33 thereby releasing the drive between runner 23 and shaft 21. The primary function of the main clutch C is to enable the driver to make manual shifts in transmission D.

Referring to the transmission, pinion 28 is in constant mesh with gear 34 which drives counter- A clutch pedal 29 controls clutch ,C such shaft 35 through an overrunning clutch E of the rear) then clutch E will engage to lock gear 34 to countershaft 35 whenever the gear 34 tends to drive faster than the countershaft. However, whenever this gear 34 tends to rotate slower than the countershaft then clutch E will automatically release whereby shaft 21. under certain conditions, may readily drop its speed while countershaft 35 continues to revolve.

Countershaft 35 comprises cluster gears 38, 31 and 38 which respectively provide drives in first, third and reverse. Freely rotatable on shaft 28 are the first and third driven gears 39 and 48 respectively in constant mesh with countershaft gears 38 and 31. A hub 4| is splined on shaft 28 and carries therewith a manually shiftable sleeve 42 adapted to shift from the Fig. 3 neutral position either rearwardly to clutch with teeth 43 of gear 38 or else forwardly to clutch with teeth 44 of gear 48. Sleeve 42 is operably connected to shift rail 45 adapted for operation by any suitable means under shifting control of the vehicle driver.

Shaft 28 also carries reverse driven gear 48 fixed thereto. A reverse idler gear 41 is suitably mounted so that when reverse drive is desired, idler 41 is shifted into mesh w th gears 38 and 48.

First, third and reverse speed ratio drives and neutral are under manual shift control of the vehicle driver, the ma n clutch C being released by depressing pedal 29 in shifting into any one of these drives.

First is obtained by shifting sleeve 42 to clutch with teeth 43, the drive passing from engine A, through fiuid coupling B, clutch C and shaft 21 to p nion 28 thence through gear 34 and clutch E to countershaft 35. From the countershaft the drive isthrough gears 36, 39 and sleeve 42 to shaft 28.

Third is obtained by shifting sleeve 42 to clutch with teeth 44, the drive passing from the engine to the countershaft 35 as before, thence through gears 31, 48 and sleeve 42 to shaft 28.

Reverse is obtained by shifting idler into mesh with gears 38, 46, sleeve 42 being in neutral, the reverse drive passing from the engine to the countershaft 35 as before, thence through gears 38, 41 and 48 to shaft 28.

Siidably splined on teeth 48 carried by gear 48 is the automatic clutching sleeve F which, under certain conditions, is adapted to shift forwardly to clutch with teeth 48 carried by pinion 28 thereby positively clutching shaft 21 dlrectll to gear 48. This sleeve F is adapted to step-up the speed ratio drive from first to second and from third to fourth which is a direct drive speed ratio. Control means is provided which limits clutching of sleeve F to approximate synchronism with teeth 49 and also to a condition of engine coast, sleeve F being prevented from clutching during that condition known as engine drive as when the engine is being speeded up under power.

When driving in first, second is obtained by the driver releasing the usual accelerator pedal 58 thereby closing the engine throttle valve and I allowing the engine to rapidly coast down. When this occurs, the engine along with shaft 21, pinion 28 and gear 34 all slow down while shaft 28 along with gears 38 and 38 continue their speeds by accommodaticnof clutch E which now overruns. The engine slows down until teeth 49 are brought to approximate synchronism with sleeve F which thereupon automatically shifts to clutch with teeth 49 resulting in a two-way drive for second as follows: pinion 28 through sleeve F to gear 48 thence through gears 31, 38 and 38 to sleeve 42 and shaft 28, the clutch E overrunning.

'When driving in third, fourth or direct is obtained Just as for second by driver release of the accelerator pedal and resulting shlftof sleeve F to clutch with teeth 49 when these parts are synchronized by reason of the engine coasting down from the drive in third. The direct drive is a two-way drive as follows: pinion 28 through sleeve F to'gear 48 thence directly through sleeve 42 to shaft 28, clutch E overrunning as before.

Referring to Figs. 4 to 9 there is shown the blocking means for controlling clutching shift of sleeve F so as to limit clutching thereof to engine coasting and synchronous relationship of the clutching parts. Sleeve F is provided with a series of pairs of what may be termed long and short teeth 58, 5| certain of which may be bridged or joined together. A blocker ring 52 is provided with blocking teeth 53 which either lie in the path of forward shift of teeth 58 or 5| or else between these teeth to allow clutching shift of sleeve F. Thus, blocker 52 has, at suitable locations, a drive lug 54 engaged in a slot 55 of gear 48. The blocker is urged under light energizing pressure of spring 58 into constant frictional engagement at 51 with pinion 28 so that the blocker tends to rotate with pinion 28 within the limits afforded by the travel of lug 54 circumferentially in slot 55.

During drive in first and third, the speed of shaft 21 exceeds the speed of gear 48 so that, if sleeve F is fully released, the parts will be positioned as in Fig. 5 wherein the blocker. leads the sleeve F thereby positioning blocker teeth 53 axially in alignment with the short teeth 5i. If new the sleeve F is urged forwardly it will move to the Fig. 6 position of drive blocking and will remain in this blocked position as long as the engine drives the car in first or third.

If new the driver releases the accelerator pedal so that the engine may coast down under accommodation of overrunning clutch E, while sleeve F is urged forwardly, then when pinion 28 is reduced in speed to that of sleeve F slight further revolution below the speed of sleeve 1' will cause blocker B2 to rotate slightly relative to sleeve F until blocker teeth .83 strike the adjacent sides of long teeth 58 as in Fig. '7 thereby limiting further reduction in speed of the blocker relative to sleeve F. At this time the sleeve F is free to complete its forward clutching shift with teeth 49, as in Fig. 8, the blocker teeth I; passing between adjacent long and short teeth 80, 8|. With the sleeve F thus clutched during engine coast.

a two-way drive is established in second or fourth from its Fig. position at a time when the gear 48 is rotating faster than pinion 28, then the blocker 52 will lag behind the sleeve and will be blocked by engagement of long teeth 80 with the blocker teeth 53 as shown in Fig. 9. This is referred to as the coast blocking condition. If now the engine is speeded up by the driver depressing the accelerator pedal in the usual manher, then the engine and blocker 52 rotate forwardly and blocker teeth 53 move over to the Fig.6 drive blocking position thereby jumping the gap between teeth 50 and BI. This is the primary reason for providing the long and short teeth whereby sleeve F clutches only from the drive blocking condition followed by engine coast which protects the teeth and avoids harsh clutching effects on the passengers and transmission mechanism. On accelerating the engine from the Fig. 9 coast blocking condition. the engine comes up to a speed limited by engagement of the overrunning clutch E for drive in either first or third depending on the setting of the manually shiftable sleeve 42. Then on releasing the accelerator pedal the sleeve F will synchronously clutch with teeth d9 during coast to step-up the drive to either second or fourth as aforesaid.

The transmission is provided with suitable prime mover means for controlling shift of sleeve F along with several control means. Referring particularly to Figs. 10 and 11, there is illustrated a pressure fluid operated motor G utilizing air pressure for its operation. For convenience this motor is arranged to operate by the vacuum" in the intake manifold system of the engine under control of electromagnetic means illustrated in the form of a solenoid H.

Forward shift of sleeve F is effected, under control of motor G. by reason of a spring Gil fixed at one end and exerting a pull on lever which is connected to sleeve F through the crossshaft 80 and shifter yoke 8|. Pivoted to the lower end of lever 58 is a follower rod 62 guided in a support 83 and in the rubber sealing boot 6i carried by cylinder 85 which contains the diaphragm piston 88 urged in a direction to release sleeve F by a spring 81 which is much stronger than spring 88. Diaphragm piston 88 is connected to a leader rod 88 which has" a rear extension 89 aligned withrod 82.

Rod 88 has a series of detents 10, H and 12. the latter cooperating with a latch 13 such that when vacuum is admitted to chamber 14 to cause the piston and rod 88 to assume their Fig. 11 positions, latch 18 under action of rat-trap spring catches on the forward shoulder of detent I2 and holds the parts as in Fig. 11. At this time rod portion 89 moves further thanrb'd "by the amount of gap I8, a stop 11 acting on lever all ll limitingforward movement of sleeve F by spring 88. p

In order to provide for release of sleeve F. it is desirable to provide some means for momentarily relieving the torque load at the teeth 48 and sleeve F and in the present instance I have provided such means as a system of grounding the distributer of the ignition system whereby the engine ignition may be momentarily rendered ineffective thereby unloading the torque at sleeve F sufficiently to insure its release by spring 81. This ignition interrupting system is under control of an interrupter switch 18 which is closed by plunger 19 and ball whenever rod 89 moves between the Fig. 10 and Fig. 11 positions by reason of the enlarged rod portion between detents 18, ll. Detent H is so arranged that, with the parts as in Fig. 11 and sleeve F clutched, rod 68 may move rearwardly sufficiently to close gap 18 at the lost-motion between rod portion 89 and rod 82, this movement causing switch 18 to close and ground the ignition system whereupon spring 81 may then cause further movement of rod 68 and rod 62 to release sleeve F, the switch 18 then opening by detent 10 to restore the ignition system.

The vacuum supply to chamber 14 is under control of solenoid H which comprises an armature plunger 8|] havingvaiving parts BI, 82. In Fig. 10 the solenoid H is energized thereby raising plunger 80 against spring 83 to seat valve 82 and shut off the vacuum supply to chamber 14 and at the same time unseat valve 8! so as to vent this chamber through passage 84, chamber 85 and vent passage 88. When the solenoid is de-energized then spring 83 lowers plunger 80 thereby seating valve Bl to shut off vent 8t and open valve 82 as in Fig. 11 thereby opening chamber 14 to the engine intake manifold K through passage M, chamber 86, and pipe 81.

A certain lost motion is provided between plunger 80 and the inwardly bent finger 13 of latch 78 so thatwhen the plunger moves downwardly the latch may subsequently catch at detent 72 when vacuum operates piston 66. the parts then remaining in the Fig. 11 position independently of vacuum in chamber it until solenoid H is energized to release the latch and vent chamber M.

It is deemed preferably to provide a speed concondition the manual sleeve 42 is either shifted rearwardly to the low range or forwardly to the high range so that by driving a governor from the countershaft 35 it is possible to provide a speed control operated proportionate to the speed of travel of the car. Driven from countershaft gear 88 is a governor J of any suitable type. this governor operating a sleeve 89 outwardly along its drive shaft 90 as the car speed reaches a predetermined point, the break-away being under control of a detent 9i if desired.

The sleeve 89 has a shoulder 92 engaged by the swinging switch piece 93- of the governor switch 94. When the car is stationary the detent 9| is engaged and switch 94 is closed. As the car accelerates the governoreventually reaches its critical speed and detent 9| releases thereby causing switch 94 to open. As the car slows down, the governor spring 95 restores the parts to the Fig. 10 position and by proportioning the various parts it is obvious that switch 94 may be made to function at desired speeds proportionate to car travel. As an example of one arrangement of governor operation and gearing arrangement, the governor may be made to open switch 94 during car acceleration in first and third respectively at approximately I and 15 M. P. H. (miles per hour), the switch 94 closing on stopping the car in direct and second at approximately 7 and 3 M. P. H. respectively.

In order to prevent undesired deenergization of the solenoid H with attendant latching of piston 66 andclutching of sleeve F.when the car is stoppedas would occur in the event the driver brings the car to a stop, especially on an upgrade, while prematurely shutting off the engine ignition and leaving the sleeve 42 shifted in one of its forward drive positions, there is provided some means to maintain the piston 66 against such undesired latching. In Fig. 10 this means comprises the vacuum switch L, as set forth in said Dunn application, this switch .being interposed in a circuit containing the governor switch 94 and solenoid H such that as long as there is an appreciable vacuum in the intake manifold K then the solenoid will remain energized independently of the ignition switch.

.The switch L is controlled by a movable conductor 96 carried by a diaphragm 91 which divides casing 98 into two chambers 99 and I00.

' Chamber 99 is in continuous communication at ml with manifold K, and chamber I is vented to the atmosphere at I02. A light spring I03 raises conductor 96 upwardly so as to open switch L when the vacuum in manifold K has fallen so low that it would be ineflective to operate piston 66.

. ther depression of pedal 50 will cause finger I29 The governor solenoid circuit'under control of switches 94 and L in series, comprises ground I04 to switch 94 thence through conductors I05, I06 and I01 to solenoid H thence by conductor I08 to switch L, ammeter I09, battery I I0 and ground III.

In Fig. 10 I have illustrated a portion of the engine ignition circuit which extends from battery H0 and ammeter I 09 to ignition switch 2- thence to coil H3 and distributer II4.

. The ignition grounding circuit for rendering the ignition momentarily inoperative comprises a grounding conductor II5 extending to ignition interrupter switch I8 thence by conductor II6 to conductor I06 which has a branch II I extending to ground IIO under control of a switch II9 called the kick-down switch because it is controlled by the accelerator pedal 50 when fully depressed to effect step-down in the transmission speed ratio.

The kick-down solenoid circuit extends from ground II8 through switch H9 and conductors 1, I06 and I0'I through solenoid H and thence through switch L to ground III just as for the governor solenoid circuit.

The kick-down switch H9 is preferably closed when the engine throttle valve I20 (Fig. 1) is fully open. This may be accomplished by arranging the accelerator pedal 50 for a movement overtravelllng its wide open throttle position. Pedal 50 operates a link I2I so as to swing bell crank lever I22, I23 about its pivot I24. Lever arm I22 operates link I25 which is connected to throttle valve lever I26 through a lost motion spring I 21. Ordinarily this spring affords a solid connection between link I25 and lever I26 but when pedal 50 is depressed to cause lever I26 to engagestop I28 at wide open throttle, then furof lever arm I23 to throw arm I30 of switch II9 upwardly thereby closing switch II9, the spring I21 yielding to accommodate this overtravelllng movement of the accelerator pedal. When the pedal is released, then finger |3I restores switch II9 to open the kick-down solenoid circuit.

In the operation of the mechanism, the car at standstill and with the ignition switch I I2 closed and the engine idling will cause the solenoid H to be energized as in Fig. 10 because governor switch 94 is closed and vacuum in manifold K will cause switch L to be closed thereby establishing the governor solenoid circuit. Cylinder-I4 is vented and sleeve F disengaged. The driver shifts sleeve 42 to either the high or low range and accelerates the car ordinarily above the critical speed of governor J thereby causing switch 94 to open. As vacuum builds up in the engine intake manifold K, plunger 90 now being lowered by spring 83 because switch 94 is open, piston 66 will be operated by vacuum thereby moving rod 68 to its Fig. 11 latched position. As soon as the driver allows the engine to coast, sleeve F will engage teeth 49 synchronously, to step-up the drive to either second or fourth although the step-up will be delayed until engine coast thereby enabling drive in the slower driving ratio of first or third as long as desired.

If the car is initially accelerated in first above the governor critical speed and the engine allowed to coast, then second will automatically become operative. Then if the driver shifts sleeve 42 forwardly to the high range, third will of course be skipped and fourth will be obtained because sleeve F will remain engaged. Ordinarily, especially where the car is equipped with a fluid coupling B, the sleeve 42 may be left in its high range and. all starts and stops made without further shifting. This is possible owing to slippage in the fluid coupling when stopping the car for, a traflic light and is practicable because the fluid coupling allows high engine torque for favorable car acceleration and because governor J directs a downshift on bringing the car to rest. Thus there is automatically provided a favorable torque-multiplying gearing for starting, as

in third.

Whenever the car is driving in fourth or second above the governor critical-speed, a full depression of the acceleratorpedal will cause the transmission to step-down to third or first, the transmission step-up back to fourth or second taking place on release of the accelerator pedal with attendant synchronization of sleeve F with teeth 49.

When the accelerator pedal is fully depressed for the kick-down, switch II9 closes thereby energizing the kick-down solenoid circuit and causing solenoid H to raise plunger and release latch 13 thereby venting chamber 14. At this time the sleeve F is under driving torque from the engine operating under wide open throttle. However, when latch I3 is released, spring 61 operates rod 68 rearwardly sufliciently to close gap I6 thereby closing the interrupter switch I8 and grounding the engine ignition system. This relieves the torque at sleeve F and spring 61 operates to release the sleeve whereupon the ignition is restored at detent I0 and the engine quickly speeds up to engage overrunning clutch E for establishing the third or first driving ratio depending on the setting of sleeve 42 prior to the kick-down operation.

0n bringing the car to a stop when sleeve F in the stopped positionof the car.

is clutched as in fourth for example, the vacuum switchl' insures release of sleeve F especially in the event that the engine ignition is turned off at switch II2 priorv to bringing the car to rest.

Heretofore, without the vacuum switch or the equivalent thereof, the'ignitionswitch 2 was released. Then on stopping the car a slight backward roll of the car would cause blocker 52 to move just enough to-unblock the sleeve and allow the'latter to move forwardly by spring 58 and clutch with teeth 49. The effect is especially noticeable on stopping the car on any upgrade, such conditiongiving rise to the backward roll and undesired clutching of sleeve F New with sleeve F engaged and the gear-shifter set for high range (sleeve 42 clutched with teeth) where it is normally left until leaving the car, the backward roll produces a locked-up efiect in the transmission making it impossible to shift sleeve 42 out of its clutchedposition. This is occasioned by the car attempting to establish drives intwodifierent ratios in the transmission, one drive being from gear 40 directly to pinion 28 and the other being also between pinion 90 and gear 109 but through gear .96 clutch E and gear I06. The result is to hold the car against movementand to load the teeth of sleeve 42 in the shifted position. Now if the driver attempts to drive the car forwardly he naturally closes the ignition switch to start the engine but the engine will not start because'the ignition system will ground and the car remains stalled. The ignition grounds because under the assumed conditions the rods 69 and 62 are positioned as in Fig. 11 on stopping the car so that as soon as the ignition switch is closed the solenoid H is energized through the governor solenoid circuit and rod 69 moves to take up gap I6 thereby holding interrupter switch I8 closed .because sleeve F being loaded by backward roll tendency of the car cannot release by spring 61. Of course if the car is stopped without first turning off th ignition then governor switch 94 closes and solenoid H is energized thereby maintaining chamber I4 vented and allowing spring 61 to release sleeve F when the torque becomes very low as it does just before the car comes to rest. The trouble heretofore arises therefore in allowing the vacuum to operate in chamber I4 as the car is brought to rest, as in turning off the ignition such that the governor switch cannot establish its circuit to the solenoid and prevent latching of the piston. Some drivers have a habit of turning off the engine ignition when they are approaching the point where they are going to park the car, allowing the car to coast to a stop and the difliculties heretofore arise with some frequency under such conditions.

The foregoing difflculties have been largely automatically remedied by the vacuum switch L, as set forth in said Dunn application. Assuming that the car is stopped in fourth and the ignition switch H2 is left closed as it ordinarily is, then, as the governor switch 94 closes-the solenoid H is raised and chamber I4 vented thereby insuring release of sleeve F as before. Under such conditions switch L remains closed as the engine is running and diaphragm 91 is operated by vacuum in manifold K. Now let it be assumed that the car is driving in fourth and the driver opens switch I I2 and brings the car to rest on an upgrade, leaving sleeve 42 shifted forwardly.

As the car approaches a stop, the engine will not operate under its 'own power but will nevertheless be driven through transmission D, clutch C and fluid coupling B so that it will act as a pump and maintain vacuum in manifold K. This vacuum maintains switch L closed and as the governor switch 94 closes on car deceleration the solenoid H is maintained energized, chamber 14 is maintainedvented, and piston 66 is prevented from becoming latched. Furthermore,

spring I03 is very light and will respond to a slight degree of vacuum in the manifold so that when the vacuum finally falls to the point where switch L opens to deenergize the solenoidH and allowplunger 80 to lower, then the vacuum is not sufilcient to operate piston 66 to its latched 0 position. The intention therefore is to insure that the car will always. be brought toa stop with sleeve F disengaged thus preventing the transmission lock-up, insuring. against interrupter switch I3 undesirably grounding the engine ignition, and insuring the next acceleration of the carina favorable torque multiplying ratio which is third ii sleeve 42 is left in its position of forward shift. a

While the arrangement hereinbefore described will overcome the difficulties in most instances, it will be noted that the controlling operation of the vacuum switch L, under the particular cir cumstances aforesaid, depends on the car driving the engine as apump, thereby insuring the engine producing sufiicient vacuum in manifold K that the vacuum switch L will be closed. In some transmission systems, 'as in that illustrated in my drawings, it is possible to break the-drive from the car to the-engine, as by depressing pedal 29 to release clutch C, while bringing the car to rest on an upgrade with the ignition shut off. Some drivers have a habit of depressing both the clutch and brake pedals in bringing the car to rest and if the clutch pedal is depressed under such conditions it will defeat the purpose of the vacuum switch L because the engine will quickly come to a stop in advance of bringing the car to restand atmospheric pressure will be in manifold K as ordinarily the intake manifold is open through the customary carburetor and air cleaner to the atmosphere. to be deenergized by breaking the governor solenoid circuit and, under the conditions noted, the car may stop with sleeve F clutched under torque and the engine ignition grounded out.

In order to overcome the possibility of nullifying the effect of; the vacuum switch under the conditions aforesaid, I have provided what may be called a clutch pedal-switch M controlled by a conductor J35 normally held in its Fig. 10

switch-open position by a spring I36 when pedal 29 is fully released. This pedal is operably connected to conductor I35 through a suitablelostmotion means as a spring I31 which allows the conductor to open switch M when the pedal is released but whichacts in tension to close the switch as soon as pedal 29 is depressed, the switch staying closed during the clutch releasing stroke of pedal 29- by accommodation of spring I31.

Preferably the arrangement is such that the switch M closes as pedal 29 takes up the usual This will allow the solenoid clearance prior to operating the clutch release levers 3|, this clearance being designated at ill in Fig. 2 between the levers and the throw-out collar 30. Likewise switch M will then open after full engagement of clutch C when pedal 29 is released.

The switch M is connected by conductors I39 and I40 between ammeter I09 and conductor I08 to solenoid H so that it is in parallel with the vacuum switch L and will function just as described for switch L' insofar as control on solenoid H is concerned. Therefore, if the driver should bring the car to rest on an upgrade with the ignition prematurely turned of! and with pedal 29 depressed and sleeve 42 left in either its forward drive positions, switch M will remain closed and will immediately take over the functions of switch L so that even though switch L opens, the switch M will maintain the solenoid energized and prevent car stopping with sleeve F clutched. If during this car deceleration, the pedal 29 is released to engage clutch C, then the engine will resume its drive from the car through clutch C and sumcient vacuum will be restored to manifold K to cause switch L to close.

. While I have described the conditions attendant to stopping the car in fourth, it will be apparent that the same circumstances arise in stopping the car in second because in each instance the sleeve F is clutched prior to slowing down the car to where the governor switch 94 closes and in each instance sleeve 42 is clutched for a forward drive.

I claim:

1. In a power transmission for driving a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition system operative and when opened to render the ignition system inoperative; a speed ratio varying transmission; a clutch adapted to operably'connect the engine with said transmission; means for releasing said clutch thereby to operably disconnect the engine from said transmission; transmission control means including a motor operable to control said transmission for step-up and stepdown change in the speed ratio drive from the engine to the vehicle; electrically operating means for controlling operation of said transmission control means; means operable in response to operation of the engine by reason of the engine being driven by the vehicle, when said ignition control switch is open and said clutch is engaged, for controlling energization of said electrically operating means; and means operable in response to operation of said clutch releasing means for controlling energization of said electrically operating means independently of said energization control by the last said means,

2. In a power transmission for driving a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition system opera- 'tive and when opened to render the ignition sysmission control means; means operable in response to operation of the engine by reason of the engine being driven by the vehicle, when said ignition control switch is open and said clutch is engaged, for controlling energization of said electrically operating means; means operable in response to operation of said clutch releasing means for controlling energization of said electrically operating means independently of said energization control by thelast said means; and means operably responsive to predetermined vehicle driving speed for controlling energization of said electrically operating means in conjunction with each 01' said energization controlling means.

3. In a power transmission ior'driving a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition system operative and when opened to render the ignition system inoperative; a speed ratio varying transmission; a clutch adapted to operably connect the engine with said transmission; means for releasing said clutch thereby to operably disconnect the engine from said transmission; transmission control means including a motor operable to control said transmission for step-up and step-down change in the speed ratio drive from the engine to the vehicle; electrically operating means for controlling operation oi said transmission control means; and electrical circuit-forming means for controlling operation of said electrically operating means independently of opening and closing of said ignition control switch, comprising, a speed-responsive switch, means for opening and closing the speed-responsive switch in response to predetermined driving speed of the vehicle, and a pair. of parallel arranged circuit controlling means respectively operable in response to operation of the engine when driven by the vehicle and in response to operation of said clutch releasing means.

4. In a power transmission for driving a motor vehicle having an engine provided with an ignition system; an ignition control-switch adapted when closed to render the ignition system operative and when opened to render the ignition system inoperative a speed ratio varying transmission; a clutch adapted to operably connect the engine with said transmission; means for releasing said clutch thereby to operably disconnect the engine from said transmission; transmission control means including a motor operable to control said transmission for step-up and step-down change in the speed ratio drive from the engine to the vehicle; electrically operating means for controlling operation of said transmission control means; means dependent on operation of the engine when the engine is driven by the vehicle, with said ignition control switch open, for controlling energization of said electrically operating means; and means operable in response to operation of said clutch releasingmeans for controlling energization of said electrically operating means independently of said energization control by the last said means.

5. In a power transmission for driving a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition system operative and when opened to render the ignition system inoperative; a speed ratio varying transmis-,

sion; a clutch adapted to operably connect the engine with said transmission; means for releasing said clutch thereby to operably disconnect the engine from said transmission; transmission con- 'trol means including a motor operable to control said transmission for step-up and step-down change in the speed ratio drive from the engine ofIsaid-clutch releasing means for controlling energization of said electrically operating means independently of said energlzation control by the ilast said means; and means'operable responsive to predetermined vehicle driving speed for controlling energization of said electrically operating means in conjunction with each of said energizetion controlling means.

6. In a power transmission for driving a motor vehicle having an engine provided with an ignivtlon system; an ignition control switch adapted when closed to render the ignition system operative and wh opened to render the ignition sys tem inoperative; a speed ratio varying transmission; a clutch adapted to operably co nect the engine with said transmission; means or releas inglseid clutch thereby to operably disconnect the engine from said transmission; transmission control means including a motor operable to con trol said transmission ior step-up and step-down change in the speed ratio drive fro the engine to the vehicle; electromagnetic means energizable to control operation of said motor; circuit-con trolling means operable in responsie to operation of the engine by reason of the engine being driven by the vehicle, when said ignition control switch is open, for maintaining said electromagnetic means energized; and circuit controlling means operable in response to operation oi said clutch releasing means in disconnecting the engine i rom the transmission, when said ignition control switch is open, for maintaining said electromag netic means energised.

'l. in a power transmission iordrivlng a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition system opera tive and when opened to render the ignition sys tem inoperative; a speed ratio varying transmis sion; a clutch adapted to operably connect the engine with said transissicn; means for releas 'ing said clutch thereby to operably disconnect the engine from said transmission; transmission con trolmeans including a motor operable to control said transmission for step-up and step down change in the speed ratio drive from the engine to the vehicle; electromagnetic means energizable to control operation of said motor; circuit-con trolling means operable in response to operation oi the engine by reason oi the engine being driven by the vehicle, when said ignition control switch is open, for maintaining said electromagnetic tive and when opened to render the ignition system inoperative; a speed ratio varying transmission; a clutch adapted to operably connect the engine with said transmission; means for releasing said clutch thereby to operably disconnect the engine from said transmission; transmission control means including a motor operable to control said transmission for step up and step-down change in the speed ratio drive from the engine to the vehicle; electromagnetic means energizable to control operation of said motor; and electrical circuit-formingmeans for controlling energizetion of saidelectromagnetic means independently of opening and closing or said ignition control switch, comprising, a speed-responsive switch, means for opening and closing the speed-responsive switch in response to predetermined driving speed of the vehicle, and a pair of parallel arranged circuit controlling means respectively operable in response to operation of the engine when driven by the vehicle and in response to operation of said clutch releasingmeans.

9. In a power transmission for driving a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition system operative andwhen opened to render the ignition sysbit tem inoperative; a speed ratio varying transmisadapted to operably connect the sion; a clutch engine with said transmissiom means for releasing said clutch thereby to operably disconnect the engine from said transmission; transmission control means including a motor operable to control said transmission for step-up and step-down change in the speed ratio drive irom the engine to the vehicle; electrically operating means for controlling operation of said transmission control means; circuit-controlling means utilizing the partial vacuum in the engine intake for effecting energization of said electrically operating means when said ignition control switch is open and the engine is being driven by the vehicle; and circuit-controlling means operable in response to operation oi said clutch releasing means in disconnectingthe engine from the transmis sion for effecting energization of said electrically operating means.

10. In a power transmission for driving a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition system operative and when opened to render the ignition system'inoperative; a speed ratio vary ing transmission; a clutch adapted to operably connect the engine with said transmission; means for releasing said clutch thereby to operably disconnect the engine irom said transmis--' sion; transmission control means including a inctor operable to control said transmission for step-up and step-down change in the speed ratio drive from the engine to the vehicle; electrically operating means for controlling operation or said transmission control means; circuit-controlling means utilising the partial vacuum in the engine intaire for effecting energization of said electrically operating means when said ignition control switch is open and the engine is being driven by the vehicle; and circuit-controlling means ably responsive to predetermined vehicle driving speed for controlling energization 01 said electrically operating means in conjunction with each oi said circuit-controlling means. i

11. In a power transmission for driving a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition system operative and when opened to render the ignition system inoperative; a speed ratio varying transmission; a clutch adapted to operably connect the engine with said transmission; means for releasing said clutch thereby to operably disconnect the engine from said transmission; transmission control means including a motor operable to control said transmission for step-up and step-down change in the speed ratio drive from the engine to the vehicle; electrically operating means for controlling operation of said transmission control means; and electrical circuit-forming means for controlling operation of said electrically operating means independently of opening and closing of said ignition control switch, comprising, a speed-responsive switch, means for opening and closing the speed-responsive switch in response to predetermined driving speed of the vehicle, and a pair of parallel arranged circuit controlling means respectively operated by the partial vacuum in the engine intake and by said clutch releasing means.

12. In a power transmission for driving a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition system operative and when opened to render the ignition system inoperative; a speed ratio varying transmission; a clutch adapted to operably connect the engine with said transmission; means for releasing said clutch thereby to operably disconnect the engine from said transmission; transmission control means including a motor operable to control said transmission for stepup and step-down change in the speed ratio drive from the engine to the vehicle; means utilizing the partial vacuum in the engine intake for'controlling operation of said transmission control means; electromagnetic means for controlling operation of said vacuum means; means utilizing the partial vacuum in the engine intake for effecting energization of said electromagnetic means when said ignition control switch is open and the engine is being driven by the vehicle; and means operable in response to operation of said clutch releasing means in disconnecting the engine from the transmission for efiecting energization of said electromagnetic means.

13. In a power transmission for driving a motor vehicle having an engine provided with an igni-I tion system; an ignition control switch adapted when closed to render the ignition system operative and when opened to render the ignition system inoperative; a speed ratio varying transmission; a clutch adapted to operably connect the engine with said transmission; means for re{ leasing said clutch thereby to operably discon-- nect the engine from said transmission; transmission control means including a vacuum motor gnomes predetermined driving speed of the vehicle, and a pair of parallel arranged circuit controlling means respectively operable in response to operation or the engine when driven by the vehicle and in response to operation of said clutch releasing means in disconnecting the engine from the transmission. U

lhIn, a power transmission for driving a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition sys tem operative and when opened to render the ignition system inoperative; a speed ratio varyiing transmission; a clutch adapted to operably connect the engine with said transmission; means for releasing said clutch thereby to operably disconnect the engine from said transmission; transmission control means including a vacuum motor operable to control said transmission for step-up and step-down change in the speed ratio drive from the engine to the vehicle; a solenoid; solenoid operated means for controlling operation oi said motor; means operably responsive to drive oi the engine by the vehicle for maintaining said lib operable to control said transmission for step-up solenoid energized as the vehicle is brought to a stop with said ignition control switch open; and means operable in response to operation of said clutch releasing means in disconnecting the engine from the transmission for maintaining said solenoid energized as the vehicle is brought to a stop with said ignition control switch open.

15. In a power transmission for driving a motor vehicle having an engine provided with an ignition system; an ignition control switch adapted when closed to render the ignition system operative and when opened to render the ignition system inoperative; a speed ratio'varying transmission; a clutch adapted to operably connect the engine with said transmission; means for releasing said clutch thereby to operably disconnect the engine from said transmission; transmission control means including va vacuum motor operable to control said transmission for step-up and step-down change in the speed ratio drive from the engine to the vehicle; a solenoid; solenoid operated means for controlling operation of said motor; means operably responsivcto drive oi the engine by the vehicle for maintaining said solenoid energized asthe vehicle is brought to a stop with said ignition control switch open; means operable in response to operation. of said clutch releasing means in disconnecting the engine from the transmissionior maintaining said solenoid energized as the vehicle is brought to a stop with said ignition control switch open; and a governor switch operably responsive to predetermined speed of travel of the vehicle for controlling energization of said solenoid by the last said means and by said engine-drive-responsive means.

16. In a motor vehicle power transmission having an engine; a driving structure adapted to receive drive from the engine; a driven structure adapted to receive drive from the driving structure ior driving the vehicle; means operable to establish a speed ratio drive relationship between the driving and driven structures and including positively engageable drive control elements one of which is mova le relatively to the other to establish and release said speed ratio drive; a vacuum motor operable to control drive-establishing and drive-releasing movement of said movabledrive control element, said motor comprising 'a pressure chamber and a piston operable therein by pressure fluid from a first position to a second position thereof; a spring acting to {move said piston to its said first position when said chamber is vented; piston operated means for transmitting movement from said piston to said movable drive control element and adapted'for movement from a first position to a second position for imparting drive-releasing movement to said movable drive control element; yielding means operating to' urge drive-establishing movement of said movable drive control f element when said piston is operated by pressure fluid and so constructed and arranged as to accommodate pressure fluid operation of said piston in advance oi. drive-establishing movement of said movable drive control element; valving means for controlling pressure fluid application to and venting of said chamber; latch means operable from a first position of releasably latching said piston operated means in its said first position to a second position accommodating movement of said piston operated 7 means to its said second position; electromagnetic means for controlling operation of said valving means and said latch means; means operably responsive to drive of the engine by the vehicle as thevehicle is brought to a stop for maintaining said electro-magnetic means energlzed thereby causing said valving means to maintain said chamber vented and to maintain said latch means in its said second position; a clutch adapted to operably connect the engine with said driving structure; means for releasing said clutch thereby to operably disconnect the engine from said driving structure; and means operable in response to operation of said clutch positively engageable drive control elements one of which is movable relatively to the other to establish and release said speed ratio drive; a vacuum motor operable to control drive-establishing and drive-releasing movement of said movable drive control element, said motor comprising a pressure chamber and a piston operable therein by pressure fluid from a first position to a second position thereof; a spring acting to move said piston to its said first position when said chamber is vented; piston operated means for transmitting movement from said-piston to said movable drive control element and adapted for movement from a first position to a second posi- 1 tion for imparting drive-releasing movement to said movable drive control element; yielding 4 means operating to urge drive-establishing movement of said movable drive control element when said piston is operated by pressure fluid and so constructed and arranged as to accommodate pressure fluid operation of said piston in advance of drive-establishing movement of said movable drive control element; valving means for controlling pressure fluid application to and venting of said chamber; latch means operable from a first position of releasably latching said piston operated means in its said first position to a second position accommodating movement of said piston operated means to its said second position; electro-magnetic means for controlling operation of said valving means and said latch means; means operably responsive to drive of the engine by the vehicle .as the vehicle is brought to a stop for maintaining said electro-magnetic means energized thereby causing said valving means to maintain said chamber vented and to maintain said latch means in its said second position; a; clutch adapted to operably connect the engine with said driving structure; means for releasing said clutch thereby to operably disconnect the engine from said driving structure; means operable in response to operation of said clutch releasing means in disconnecting the engine from said driving structure for maintaining said electro-magnetic means energized independently of energization thereof by said engine-drive-responsive means; and a governor switch operably re-' sponsive to predetermined speed of travel of the from the engine to the vehicle, said control means including positively engageable drive control elements adapted when engaged to provide said step-up and when disengaged to accommodate said step-down; electrically operated means for controlling operation of said transmission control means and adapted when energized to maintain said drive control elements disengaged; and means responsive to operation of said clutch releasing means in operably disconnecting the engine from the transmission for maintaining said electrically-operated means electrically energized as the vehicle is brought to a stop with said clutch released.

19. In a motor vehicle power transmission having an engine provided with an ignition system; a driving structure adapted to receive drive from the engine; a driven structure adapted to receive drive from the driving structure for driving the vehicle; means operable to establish a speed ratio drive relationship between the driving and driven structures and including positively engageable drive control elements one of which is shiftable into engagement with the other to establish said speed ratio drive and out of engagement with said other drive control element to release said speed ratio drive; a follower member having a' thrust-receiving portion operably connected to said shiftable element; a leader member having a thrust-imparting portion adapted to transmit thrust-to the thrust-receiving portion of said follower. member; means for selectively establishing either an operative or an inoperative thrusttransmitting relationship between said leader and follower portions; thrust-applying means for said leader member operable, when said operative thrust-transmitting relationship is established, to cause thrust of said follower member so as to shift said shiftable element out of said engagement; means operable in response to establishment of said inoperative thrust-transmitting relationship for effecting said engaging shift of said shiftable element; means operable to retract said leader member in lost motion relationship with respect to said follower member such that said thrust-applying means will move said leader member relative to said follower member in taking up said lost motion until said thrust-transmitting relationship is established; means for rendering the engine ignition system inoperative in response to said movement of said leader member relative to said follower member; an ignition control switch adapted for manipulation by the vehicle driver such that when said switch is closed the engine ignition system is rendered operative and when opened the. engine ignition system is rendered inoperative; a clutch operably connecting the engine with said driving structure; means for releasing said clutch thereby to operably disconnect the engine from said driving structure: and means operable in response to operation of said clutch releasing means, when said-ignition control switch is open, for causing said selectively-establishing means to establish said operative thrust-transmitting relationship such that on bringing the vehicle to a stop with said clutch 10 released said shiitable element will be maintained out 0! said engagement.

'I'ENO IAVELm. 

